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Unbalanced Optimal Transport: A Unified Framework for Object Detection

Henri De Plaen, Pierre-François De Plaen, Johan A. K. Suykens, Marc Proesmans, Tinne Tuytelaars, Luc Van Gool

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Abstract

During training, supervised object detection tries to correctly match the predicted bounding boxes and associated classification scores to the ground truth. This is essential to determine which predictions are to be pushed towards which solutions, or to be discarded. Popular matching strategies include matching to the closest ground truth box (mostly used in combination with anchors), or matching via the Hungarian algorithm (mostly used in anchor free methods). Each of these strategies comes with its own properties, underlying losses, and heuristics. We show how Unbalanced Optimal Transport unifies these different approaches and opens a whole continuum of methods in between. This allows for a finer selection of the desired properties. Experimentally, we show that training an object detection model with Unbalanced Optimal Transport is able to reach the state-of-the-art both in terms of Average Precision and Average Recall as well as to provide a faster initial convergence. The approach is well suited for GPU implementation, which proves to be an advantage for large-scale models.

Topics & Concepts

HeuristicsComputer scienceGround truthMatching (statistics)Object detectionConvergence (economics)Minimum bounding boxObject (grammar)Bounding overwatchArtificial intelligenceSelection (genetic algorithm)AlgorithmMachine learningMathematical optimizationScale (ratio)Pattern recognition (psychology)MathematicsImage (mathematics)PhysicsEconomicsStatisticsQuantum mechanicsOperating systemEconomic growthAdvanced Neural Network ApplicationsAdversarial Robustness in Machine LearningRobotics and Sensor-Based Localization
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